Carrier puck and conveyor system

ABSTRACT

Carrier puck for a conveyor system, comprising a non-circular lower body, an upper body and an intermediate circular portion connecting the non-circular lower body with the upper body, where the rear section of the non-circular lower body comprises a further semicircular shape having the same radius as the semicircular front section and further comprises an intermediate waist in between the front section and the rear section.

TECHNICAL FIELD

The present invention relates to a carrier puck comprising a non-circular lower body and a circular intermediate portion to be used in a conveyor system.

BACKGROUND ART

Conveying devices, such as those which are used for moving objects between different stations in a factory, usually comprise a conveying track in the form of a belt or a chain. The conveying tracks can be recessed in a trench with vertical side surfaces. Alternatively, they can be located on the horizontal upper surfaces of the trench or arranged in some other way. The objects to be conveyed are arranged slidably in relation to the conveying tracks, either directly or via supporting means. Larger objects are often conveyed on supporting means also known as pallets, and smaller objects may be conveyed using a small carrier often referred to as a carrier puck. Pallets and pucks are normally shaped in a substantially rectangular or square shape, in order to be able to hold a specific orientation. A specific orientation of the object conveyed by the pallet or puck is often required.

A supporting means is conveyed along the conveying track, which may comprise different work stations. The work stations may either be positioned along the conveying track such that all objects will pass all work stations. In this way, all objects must stop at the same time, regardless if an object is to be manipulated at a work station or not. Such an arrangement is not very flexible and is mostly used when all objects are to be manipulated in the same manner, and when the manipulation requires only a short time duration.

In more flexible systems, where different work stations can perform different operations on different objects, the work stations are separated from the main conveyor track. In such a system, each object can be directed to any work station without disturbing the flow on the main conveyor track. The duration of an operation at a work station will thus not affect the other objects. An object is directed into a side track by a diverting station. In order to be able to divert an object into a side track, the diverting station must be able to catch the right object from the main object flow and to move it out of the main flow into the side track.

The diversion of a pallet or a puck is commonly made by using a diverter arm that reaches in over the main conveyor track when a pallet is to be diverted. In order for the diverter arm to be able to catch the right pallet, there has to be a specified distance between the pallets. The pallet will slide against the diverter arm and will thereby change direction. Such a diverter requires that there is a spacing between the pallets conveyed on the conveyor track. The arm will not be able to part pallets that bear against each other. Such a diverter thus requires a stop function prior to the diverter arm that can stop the pallet flow if the pallets queue up such that only one pallet at the time reaches the diverter.

A commonly known rectangular pallet or puck will work fine in some systems, but there is however still room for improvements.

DISCLOSURE OF INVENTION

An object of the invention is therefore to provide a non-circular carrier puck that can be used in a conveyor system adapted for circular pucks. A further object of the invention is to provide a non-circular carrier puck having a circular intermediate portion. A further object of the invention is to provide a non-circular carrier puck that can easily be disassembled in order to exchange a broken or worn part.

The solution to the problem according to the invention is described in the characterizing part of claim 1. The other claims contain advantageous embodiments and further developments of the carrier puck.

In a carrier puck for a conveyer system, comprising a non-circular lower body, an upper body and an intermediate circular portion connecting the lower body with the upper body, the object of the invention is achieved in that a rear section of the lower body comprises a further semicircular shape having the same radius as the semicircular front section and further comprises an intermediate waist in between the front section and the rear section.

By this first embodiment of the carrier puck according to the invention, the carrier puck can be used in a conveyor system that is adapted for circular carrier pucks. Due to the circular intermediate portion, the carrier puck can be manipulated by different means at the conveyor track, such as diverters, mergers and positioning stations, in an efficient and cost- effective way. Since the manipulator will grip and hold the carrier puck at the circular intermediate portion, the manipulation will not be hindered by the shape of the lower body or the shape of the upper body. In this way, non-circular pucks can be used in a conveyor system adapted for circular pucks. This is of great advantage since this allows the part conveyed by the puck to be held in a specific orientation throughout the conveyor track, without the need for special orientation aids or specific orientation stations. The non-orientation of the object may be a drawback when using circular pucks. The inventive puck will allow for a more simple system with fewer components, since e.g. specific puck stops or orientation stations will not be required.

By allowing non-circular pucks to be used in a conveyor system adapted for circular pucks, an orientation of the puck and thus of the object conveyed by the puck is obtained. This is of advantage for specific objects, e.g. for reading information, such as a bar code on the object or when an operation on the object must be performed with the object in a specific orientation. In this way, it is possible to use the same conveyor system both for objects that does not require a specific orientation and for objects that requires a specific orientation. It is even possible to use both circular pucks and non-circular pucks at the same time. A further advantage is that a non-circular puck can be made larger and thus more stable which is of advantage when larger or heavier objects are to be conveyed.

In an advantageous development of the invention, the width of the waist section is less than half of the width of the front section. The width of the waist section may also be the same as the width of the front section.

In an advantageous development of the invention, the intermediate portion further comprises a rotatable slide ring. This will improve the performance of the system further since the friction between the puck and the manipulation means, e.g. a diverter disc, will be reduced.

In an advantageous development of the invention, the front section of the lower body comprises a semicircular shape. This will allow the pucks to bear on each other in straight sections and through bends in a conveyor in a reliable way.

In another advantageous development of the invention, the front section of the carrier puck further comprises a guide groove between the circular intermediate portion and a lower contact surface of the front section. This will allow the puck to be securely held to the conveyor track. The advantage is that the puck cannot be removed from the conveyor track, either by accident or by hand.

In another advantageous development of the invention, the front section of the carrier puck further comprises an upper contact surface above the guide groove. In this way, a second bearing surface is obtained, which will reduce the contact pressure on the lower contact surface.

In another advantageous development of the invention, the radius of the upper contact surface and the lower contact surface is larger than the radius of the intermediate portion. In this way, the puck will bear on other pucks and other surfaces with the contact surfaces and not with the intermediate portion.

BRIEF DESCRIPTION OF DRAWINGS

The invention will be described in greater detail in the following, with reference to the embodiments that are shown in the attached drawings, in which

FIG. 1 shows a side view of a carrier puck according to the invention, and

FIGS. 2-4 show an inventive puck being diverted by a diverter disc at a conveyor track.

MODES FOR CARRYING OUT THE INVENTION

The embodiments of the invention with further developments described in the following are to be regarded only as examples and are in no way to limit the scope of the protection provided by the patent claims.

FIG. 1 shows a carrier puck according to the invention for a conveyor system. The carrier puck 1 comprises a lower body 2, an upper body 3 and an intermediate portion 4. The lower body 2 has a noncircular shape and comprises a base surface 6 on which the carrier puck bears on the conveyor track. The lower body further comprises a front section 7 and a rear section 8. The front section is in this example provided with a lower contact surface 9, a guide groove 10 and an upper contact surface 11. The upper contact surface 11 is optional. The front section 7 is semicircular shaped and comprises in the shown example a semicircular lower contact surface 9, a semicircular guide groove 10 and a semicircular upper contact surface 11. The radius of the lower contact surface 9 and the upper contact surface 11 is larger than the radius of the intermediate portion 4 and the radius of the guide groove 10. The width of the carrier puck is adapted to fit between the guide rails of the conveyor track, thus the radius of the contact surfaces is half the width of the carrier puck. The front section 7 resembles half a circular puck. The radius of the lower contact surface and the upper contact surface are preferably the same.

The guide groove is optional and can be used for guiding the puck on the conveyor track in systems where a specific guide rail is provided with a protruding sleeve which corresponds to the guide groove. The protruding sleeve is used to hold the puck on the conveyor track such that it cannot be removed from the track. In this way, the puck will be secured to the track and will not be able to fall off or to tip over. The guide groove can also be used at work stations to hold the puck in a fixed position by a holding means.

The rear section 8 of the lower body is semicircular shaped and comprises a semicircular rear lower contact surface 16. The radius of the rear lower contact surface 16 is preferably the same as the lower contact surface 9. In this way, the contact surfaces of two pucks can bear on each other. In this embodiment, rear section 8 resembles a half of a lower part of a circular puck. The puck is also provided with an intermediate waist section 17 in between the front section 7 and the rear section 8. The waist section may be straight or may be narrower than the width of the front section of the carrier puck. In one example, the narrowest width of the waist section 17 is less than half of the width of the front section of the carrier puck. In this example, the puck is made as long as possible for the intended conveyor system and the width of the waist section is reduced by approximately 60% compared with the width of the front and rear sections. In this way, the puck will also be able to retain a specific orientation during the transportation of an object and can also be conveyed and manipulated by a conveyor system adapted for circular pucks. The width and shape of the waist section is determined by the sharpest corner through which the puck must be able to pass.

The puck slightly resembles one circular puck that is fixedly connected to a low circular puck by the intermediate waist section. The distance between the centre of the front section and the centre of the rear section may be the same as the distance between the centres of two circular pucks abutting each other, or may be slightly larger. Since the height of the rear section is lower than the circular intermediate portion with or without a slide ring, the rear section will not hinder the puck in e.g. a diverter station. Due to the waist, the puck can be transported through all parts of a conveyor system adapted to circular pucks, including bends, corners and handling stations. The extended length of this puck allows for larger objects to be conveyed by the puck. The extra length also provides a higher stability. The upper body is elongated compared with the puck described above, such that larger objects can be carried.

The height of the rear section must be lower than the upper part of the upper contact surface 11. In the shown example, the height of the rear section is the same as the lower contact surface and the guide groove. In this way, the rear section can pass underneath the different manipulating means of the conveyor system.

The front section or the rear section may be provided with an elastic material, e.g. rubber or plastic, in order to reduce the impact on the object when two pucks bump into each other. The puck is transported on a conveyor track by standing on the base surface. The lower contact surface 9 is used when a puck bears on the rear section 16 of another puck.

The intermediate portion 4 is circular and has a radius that is smaller than the radius of the front section. In this way, the intermediate portion will not protrude from the body of the puck and will thus not bear on another surface during transport of the object. The intermediate portion is used by different manipulating means, e.g. a diverter disc, to hold and move the puck. The intermediate portion will fit in a cut-out in the diverter disc. Preferably, the intermediate portion is provided with a slide ring 15 in order to reduce friction between the intermediate portion and a manipulating means. The dimensions of the intermediate portion and the slide ring are such that the slide ring can easily rotate on the intermediate portion when the puck is assembled. The slide ring 5 is positioned at a height that corresponds to the height of e.g. a diverter disc or another handling unit. This means that the diverter disc will be able to hold the puck by the slide ring. The friction between the slide ring and the holding surface of the diverter disc will hold the slide ring in a fixed position in relation to the holding surface during a diversion of the puck.

The lower body further comprises attachment means that are used to attach the upper body to the lower body. The attachment means may be in the form of a bayonet coupling with bayonet recesses in the lower body and bayonet protrusions in the upper body. Other attachment means are of course also conceivable, such as threads or releasable snap locks. It is also possible to mount the upper body to the lower body by a screw. The attachment means may be dismountable such that the upper body can be detached from the lower body. The advantage of this is that parts of the puck can be replaced when broken or worn, or that the upper body can be exchanged with another body adapted for another use. In this way, the puck or part of the puck can be reused when a production line is altered or shut down.

When the puck does not need to be disassembled, the upper and lower body may also be fixedly mounted to each other, e.g. by glue, bonding, snap locks or the like, depending e.g. on the material of the upper and lower body. The upper and lower body may also be integrated with each other, such that they make up a single part. The puck may also be provided with an identification means, e.g. an RFID-tag that can be either fixedly integrated in the lower body or that can be removable positioned inside the lower body.

The outer dimension of the upper body is preferably smaller than the dimensions of the contact surfaces of the lower body. In this way, the puck will only bear on another puck or another surface by the contact surfaces and not by the upper body. Since the contact surfaces are positioned at the lower part of the puck, this will ensure that the puck is stable. The upper body is adapted to the objects that are to be conveyed. Such objects may include, depending on e.g. the size of the puck, test tubes, mechanical parts, assemblies, medical packages and others. The centre of the puck may be hollow in order to fit e.g. test tubes.

The puck is preferably made from a low-friction material such that the puck will be able to glide against the conveyor track when the pucks are stopped, e.g. at a work station or a diverter station. Such a low-friction material may be a suitable plastic material, e.g. a polyamide, an acetal resin or a conductive acetal resin. At least the lower body of the puck is preferably made from this material. The slide ring may also be made from such a plastic, or may be made from a metal in order to have an improved wear resistance. The slide ring may also be designed as a roller bearing comprising roller elements in order to further reduce the friction and to increase the wear resistance.

An example of a diversion of a puck according to the second embodiment is shown in FIGS. 2 to 4. In this example, a plurality of pucks are conveyed on a first conveyor track 25 and a first puck 20 is to be diverted onto a second conveyor track 26 by a diverter disc 23. The travelling direction of the conveyor tracks are indicated with arrows. The diverter disc is provided with a circular holding cut-out 24 corresponding to the size of the intermediate portion, with or without a slide ring, of a puck.

In FIG. 2, the intermediate portion of the first puck 20 has entered the holding cot-out of the diverter disc being in a first position. A puck train with a leading second puck 21 bears on the first puck and is pushed against the first puck with a force that depends on the weight of each puck and the friction between the conveyor track and the puck train.

In FIG. 3, the diverter disc rotates in a counter-clockwise direction indicated by an arrow. The use of a slide ring will allow the slide ring to rotate relative the puck by the diverter disc which reduces wear on the puck and the diverter disc. There is no need to introduce a puck stop in order to stop the puck train since the second puck is stopped by either the first puck or the diverter disc.

In FIG. 4, the diverter disc has rotated to its second position where the first puck is diverted to the second conveyor track. When the intermediate portion of the first puck has left the holding cut-out, the diverter disc can be rotated in a clockwise direction back to the first position in which it will be able to catch the second puck which is next in turn. When the diverter disc rotates back to the first position, the outer surface of the diverter disc will be in contact with the intermediate portion of the second puck. If a slide ring is used, the slide ring will rotate in relation to the second puck, which also reduces wear.

When the intermediate portion of the second puck is caught by the diverter disc, it can either be diverted onto the second conveyor track by a counter-clockwise rotation or it can be forwarded on the first conveyor track by a clockwise rotation. Since the rear section is lower than the slide ring, the rear section can pass the diverter disc without interfering with it. When the puck is forwarded, the outer surface of the diverter disc will bear against the next puck in line.

The carrier puck may also have other shapes and sizes. In the described examples, a long puck that still fits in a conveyor system adapted for circular pucks is described. Other lengths are possible.

The invention is not to be regarded as being limited to the embodiments described above, a number of additional variants and modifications being possible within the scope of the subsequent patent claims. The puck may have any size and may be made from any suitable material. Other shapes are possible both for the lower body as well as for the upper body.

Reference Signs

1: Carrier puck

2: Lower body

3: Upper body

4: Intermediate portion

5: Slide ring

6: Base surface

7: Front section

8: Rear section

9: Lower contact surface

10: Guide groove

11: Upper contact surface

16: Rear lower contact surface

17: Waist section

20: First puck

21: Second puck

23: Diverter disc

24: Holding cut-out

25: First conveyor track

26: Second conveyor track 

1. A carrier puck for a conveyor system, the carrier puck comprising: a non-circular lower body, an upper body and an intermediate circular portion connecting the non-circular lower body with the upper body, wherein a rear section of the non-circular lower body comprises a further semicircular shape having the same radius as the semicircular front section and further comprises an intermediate waist in between the front section and the rear section.
 2. The carrier puck according to claim 1, wherein the width of the intermediate waist is less than half of the width of the front section.
 3. The carrier puck according to claim 1, wherein the width of the intermediate waist is the same as the width of the front section.
 4. The carrier puck according to claim 1, wherein the intermediate portion further comprises a rotatable slide ring.
 5. The carrier puck according to claim 1, wherein the front section of the non-circular lower body comprises a semicircular shape.
 6. The carrier puck according to claim 1, wherein the front section further comprises a guide groove between the intermediate portion and a lower contact surface of the front section.
 7. The carrier puck according to claim 6, wherein the front section of the non-circular lower body further comprises an upper contact surface above the guide groove.
 8. The carrier puck according to claim 1, wherein the radius of the upper contact surface and the lower contact surface is larger than the radius of the intermediate portion.
 9. The carrier puck according to claim 1, wherein the outer sides of the upper body that are parallel to the travel direction of the carrier puck are straight.
 10. The carrier puck according to claim 1, wherein the front section and the rear section of the upper body have a part-circular portion.
 11. The carrier puck according to claim 1, wherein the non-circular lower body and the upper body are fixedly mounted to each other.
 12. A conveyor system, comprising: at least one conveyor track, and a plurality of carrier pucks, wherein at least one of the plurality of carrier pucks comprises a non-circular lower body, an upper body and an intermediate circular portion connecting the non-circular lower body with the upper body, wherein a rear section of the non-circular lower body comprises a further semicircular shape having the same radius as the semicircular front section and further comprises an intermediate waist in between the front section and the rear section. 